Testosterone modulates the effects of ethanol on male mouse aggression

In a series of three experiments, we evaluated the degree to which the effects of acutely administered ethanol on aggressive behavior of male CFW mice toward a male intruder interact with, and depend on, androgen levels. In the first experiment, mice were tested at 15 min after 0, 0.1, 0.3, 1.0, 1.7, or 3.0 g/kg of ethanol PO. The highest dose (3.0 g/kg) significantly suppressed aggression by the male residents. In the second experiment, aggressive behavior was suppressed from 5 to 60 min after 3.0 g/kg ethanol administration PO. The third experiment evaluated the role of testosterone in these effects in another set of male mice that were castrated and then implanted with a 7.5-mm or 2.5-mm silastic capsule of testosterone (T) or a silastic capsule containing cholesterol as a control. The castrated mice with 2.5-mm T capsules or cholesterol capsules had lower baseline levels of aggression than intact mice or castrated males with 7.5-mm T capsules, but they demonstrated an alcohol dose-response pattern similar to that of the intact males. The castrated males with 7.5-mm T capsules had a different dose-response curve than the other males. Doses of 1.0 and 1.7 g/kg ethanol PO significantly enhanced aggression; 5.6 g/kg was required to suppress aggression. Ethanol effects on aggressive behavior did not require T or changes in T level, but T levels altered behavioral sensitivity to ethanol.     

Repeated alcohol: behavioral sensitization and alcohol-heightened aggression in mice

RATIONALE: Repeated administration of psychomotor stimulants or opiates can induce behavioral sensitization, typically detected as progressive and long-lasting increases in the motor-activating effects of these drugs. This phenomenon may be relevant to seizure susceptibility, drug self-administration, and sexual behavior. Repeated administration of alcohol can also induce behavioral sensitization and may have consequences on how alcohol affects aggressive behavior. OBJECTIVES: To (1) determine the enduring nature of locomotor sensitization to alcohol; (2) examine subsequent changes to morphine and amphetamine effects on locomotor behavior; and (3) test whether behavioral sensitization to alcohol or morphine is relevant to alcohol-heightened aggression. METHODS AND RESULTS: In the first experiment, male CFW mice were given ten injections of alcohol (2.4 g/kg/day), morphine (30.0 mg/kg/day), or saline. Video tracking confirmed locomotor sensitization--an approximate 200% increase in the motor-stimulating effects of these drugs. Challenges with 2.0 g/kg alcohol revealed that locomotor sensitization to alcohol persisted for at least 2 months. Alcohol-sensitized mice showed evidence of cross-tolerance to the sedative effects of morphine (5 mg/kg) but showed no evidence of cross-sensitization to the stimulant effects of 30.0 mg/kg morphine or 1.0 mg/kg amphetamine. In the second experiment, under conditions resulting in species-typical aggressive behavior against a male intruder, there were no differences in the aggressive behavior relative to saline control mice following alcohol or morphine sensitization. However, in the mice sensitized to alcohol, but not to morphine, there was a vertical shift in the dose-effect curve for moderate doses of alcohol (0.6-1.7 g/kg, p.o.). In addition, twice as many alcohol-sensitized mice consistently showed alcohol-heightened aggression when compared with the saline control mice (74% vs 37%, respectively). CONCLUSIONS: Repeated administration of alcohol can sensitize locomotor stimulation and may also render mice more vulnerable to increased aggression after alcohol. Moreover, the results suggest that at least some of the neuroadaptations caused by repeated administration of alcohol are relevant to alcohol-heightened aggression.     

Oral drug self-administration in the home cage of mice: alcohol-heightened aggression and inhibition by the 5-HT1B agonist anpirtoline

RATIONALE: In order to model heightened aggression after alcohol consumption and to study the inhibitory influence of 5-HT1B receptors on drinking and fighting, an experimental procedure should enable self-administration of precise amounts of alcohol in a limited period of time before an aggressive confrontation. OBJECTIVES: To design a new device that can reinforce operant responding by the delivery of sweet alcohol in the resident mouse home cage, where aggressive behavior toward an intruder can subsequently be examined, and to demonstrate inhibition of alcohol-heightened aggression by 5-HT1B receptor agonist treatment. METHODS: Within one experimental session, all singly housed CFW male mice (n=26) performed a nose-poke response that was reinforced by 0.05 ml sucrose. Using the sucrose fading technique, eventually the mice consumed a 6% ethanol/4% sucrose solution after each fifth nose poke during daily 15-min experimental sessions. The number of ethanol reinforcements was adjusted so that 0.6, 1.0, 1.7, and 3.0-g/kg doses were consumed in 15 min or less. Assays confirmed blood alcohol levels at 68.1 mg/dl for intake of 1.0 g/kg. After consuming a specific dose of ethanol in the form of a fixed number of response-dependent deliveries, the response panel was removed from the home cage and, 15 min later, the resident confronted a male intruder. Anpirtoline was administered either before alcohol self-administration or before the aggressive confrontation. RESULTS: After being reinforced with 1.0 g/kg or 1.7 g/kg sweet ethanol, the mice significantly increased attack and threat behavior relative to their aggressive behavior following sucrose or water consumption only. Treatment with the 5-HT1B receptor agonist anpirtoline (0.125, 0.25, 0.5 mg/kg, i.p.) before the confrontation decreased alcohol-heightened aggression and species-typical aggression in the absence of changes in other elements of the behavioral repertoire. Anpirtoline affected ethanol-reinforced behavior only at doses that were 5-10 times higher than those producing anti-aggressive effects. CONCLUSIONS: Self-administration of alcohol in the home cage of mice is readily accomplished with the aid of a simple, removable panel. The effective inhibition of high levels of aggressive behavior due to alcohol consumption after anpirtoline treatment confirm the 5-HT1B receptor as a critical site in the termination of aggression.     

Resistance of androgen-mediated aggressive behavior in mice to flutamide,an antiandrogen

The effects of ethanol (0.4, 0.8, 1.6, and 2.4 g/kg p.o.) on behavior of aggressive, timid, and sociable male mice treated with the drug on paired interactions with non-aggressive males given water were investigated. Under control interactions, aggressive mice attacked their partners, timid mice showed defensive-escape activities though their partners were completely non-aggressive, and sociable mice intensively investigated their partners. A low dose of ethanol (0.4 g/kg) increased while higher doses (0.8 to 2.4 g/kg) reduced aggressive activities in aggressive mice. Ethanol (0.8 g/kg) also evoked aggressive behavior in non-aggressive timid mice but no dose of ethanol stimulated aggression in non-aggressive sociable mice. Ethanol altered timid defensive-escape activities only in the highest dose of 2.4 g/kg: this dose increased defences and escapes in aggressive males while it reduced defensive upright postures in timid mice. However, 2.4 g/kg of ethanol reduced also another upright movement (exploratory rearing) in timid mice. Sociable activities were not increased by any dose of ethanol tested. By contrast, 0.4 g/kg of ethanol reduced sniffing and following partners in sociable mice. Thus, ethanol exhibited relatively strong aggression-stimulating effects in aversively disposed subjects while the drug was not able to supress timid defensive escape behavior and to stimulate active non-aggressive contacts between strange male mice.     

Long-term citalopram maintenance in mice: selective reduction of alcohol-heightened aggression

Background Selective serotonin reuptake inhibitors (SSRIs) alleviate many affective disturbances in human clinical populations and are used in animal models to study the influence of serotonin (5-HT) on aggressive behavior and impulsivity. Objective We hypothesized that long-term SSRI treatment may reduce aggressive behavior escalated by alcohol consumption in mice. Therefore, aggression was tested in male CFW mice to determine whether repeated citalopram (CIT) administration reduces alcohol-heightened aggression. Materials and methods Resident male mice self-administered alcohol by performing an operant response on a panel placed in their home cage that delivered a 6% alcohol solution. Mice repeatedly confronted an intruder 15 min after self-administration of either 1 g/kg alcohol (EtOH) or water (H₂O). Aggressive behaviors were higher in most mice when tests occurred after EtOH intake relative to H₂O. Once baseline aggression was established, animals were injected (i.p.) twice daily with 10 mg/kg CIT or saline (SAL) for 32 days. Every 4 days throughout the CIT treatment period, aggressive encounters occurred 6 h after CIT injections, with testing conditions alternating between EtOH and H₂O intake. Results Aggression was only modestly affected by CIT in the first 2 weeks of treatment. However, by day 17 of CIT treatment, alcohol-heightened aggressive behavior was abolished, while baseline aggression remained stable. These data lend support for the role of the 5-HT transporter in the control of alcohol-related aggressive behavior, and the time course of effects suggests that a change in density of 5HT_1A autoreceptors is necessary before antidepressant drugs produce beneficial outcomes.     

5-HT(3) receptors, alcohol and aggressive behavior in mice

Alcohol is a positive modulator at the 5-HT(3) receptor, which has been implicated in alcohol drinking, anxiety and aggression. The reported experiments explored the role of the 5-HT(3) receptor in aggressive behavior and alcohol-heightened aggression. Male, CFW mice were trained to self-administer 1.0 g/kg of alcohol, after which they confronted an intruder. Half of the CFW mice exhibited consistently increased aggressive behavior after alcohol and were designated as showing alcohol-heightened aggression, the others showed no increase and were designated as showing alcohol non-heightened aggression. The 5-HT(3) antagonist, ondansetron (0.01-1.0 mg/kg), significantly reduced aggression in both groups of CFW mice without affecting non-aggressive behaviors. Zacopride also reduced aggression effectively in both groups of mice, but at high doses began to affect walking. Male B6SJL/F2 transgenic 5-HT(3) over-expressing mice (TG) and wild-type mice (WT) were tested for aggressive behavior in their home cage. In those individuals that fought in tests of resident-intruder aggression, no differences were found in aggression after alcohol intake. In tests of aggression without alcohol intake, zacopride reduced aggression in both TG and WT mice at a dose of 56 mg/kg. Antagonism of 5-HT(3) receptors shows promising anti-aggressive effects, although these effects depend on the genetic background of the mice.     

SEX DIFFERENCES AND THE EFFECT OF GONADECTOMY ON MORPHINE-INDUCED ANTINOCICEPTION AND DEPENDENCE IN RATS AND MICE

1. Differences between sexes and the effect of bilateral surgical gonadectomy on the response to morphine analgesia and dependence were examined in rats and mice. 2. The analgesic response to morphine (5 mg/kg) was assessed by the hot plate and the abdominal constriction tests. Dependence was induced by injecting morphine at increasing doses (5–160 mg/kg) for 6 consecutive days and withdrawal signs elicited by injecting naloxone (2.5 mg/kg). 3. The base line reaction times in the intact control, shamoperated and gonadectomized animals of either sex were not significantly different from each other. 4. After treatment with morphine, the percentage increase in the reaction time in gonadectomized male and female rats and in gonadectomized male mice was significantly higher than in their respective controls. 5. The increase in the reaction time, after morphine treatment, was significantly higher in gonadectomized female rats than in gonadectomized male rats. 6. Naloxone-induced withdrawal signs in morphine-dependent gonadectomized rats and mice were not significantly different from those in sham-operated controls. However, female rats in both groups exhibited a significantly higher number of escape jumping responses than males.     

Prevention of Alcohol-Heightened Aggression by CRF-R1 Antagonists in Mice: Critical Role for DRN-PFC Serotonin Pathway

Alcohol can escalate aggressive behavior in a significant subgroup of rodents, humans, and nonhuman primates. The present study investigated whether blockade of corticotropin-releasing factor receptor type 1 (CRF-R1) could prevent the emergence of alcohol-heightened aggression in mice. The serotonin (5-HT) pathway from the dorsal raphe nucleus (DRN) to the medial prefrontal cortex (mPFC) by CRF-R1 was investigated as a possible target for the prevention of alcohol-heightened aggressive behavior. Male CFW mice that reliably exhibited aggressive behaviors after consuming 1 g/kg of alcohol received systemic or intra-DRN administration of CRF-R1 antagonists, CP-154,526 or MTIP, before a confrontation with a male conspecific. Blockade of DRN CRF-R1 receptors with both antagonists significantly reduced only alcohol-heightened aggression, whereas systemic administration reduced both alcohol-heightened and species-typical aggression. Next, a 5-HT1A agonist, 8-OH-DPAT, was coadministered with CP-154,526 into the DRN to temporarily disrupt 5-HT activity. This manipulation abolished the antiaggressive effects of intra-DRN CP-154,526. In the mPFC, in vivo microdialysis revealed that extracellular 5-HT levels were increased in mice that consumed alcohol and were then injected with CP-154,526, both systemically or intra-DRN. Neither alcohol nor CP-154,526 alone affected 5-HT release in the mPFC. The present results suggest the DRN as a critical site for CRF-R1 to modulate alcohol-heightened aggression via action on the serotonergic DRN–PFC pathway.     

Prenatal exposure to prednisone permanently alters fighting behavior of female mice

Female mice born of mothers administered 100 μg prednisone on Days 13–18 of gestation attacked a stimulus male significantly sooner following the commencement of testosterone treatment in adult life than did mice born of control mothers. In a second experiment, significantly fewer prenatally prednisone-exposed females displayed postpartum aggression as compared to controls. In both experiments females of the 100 μg prednisone group showed a reduction in birth weight relative to controls. The effect on body weight did not persist since no differences were observed on Day 21 of life. The data show that prenatal exposure to prednisone permanently modifies the later intraspecific fighting behavior of female mice.     

Impulsive-aggressive traits, serotonin function, and alcohol-enhanced aggression

Although alcohol consumption is involved in most acts of violence, most people do not become violent when they drink. Individuals also respond differently to alcohol on laboratory measures of aggression. The objective of this study was to determine whether individual differences in the effects of alcohol on a laboratory measure of aggression are related to specific personality traits and/or serotonin function, as measured by prolactin response to pharmacochallenge. Psychometric scales for impulsiveness, aggression, and anger, as well as a probe for suspiciousness, were administered to 10 healthy male social drinkers. Trait serotonin function was determined by citalopram challenge. The effect of alcohol on the Point Subtraction Aggression Paradigm was determined by comparing aggression scores with and without 1 g/kg alcohol. Impulsivity scores were significantly correlated with the change in aggressive responding after alcohol. Aggression, anger, and suspiciousness scores were not. Prolactin response did not predict the effect of alcohol on aggressive responding. The results suggest that trait impulsiveness may mediate the effects of alcohol on aggression in normal males.     

Androgen dependency of alcohol effects on aggressive behavior: a seasonal rhythm in high-ranking squirrel monkeys

The relationship between testosterone and alcohol's effects on social behavior within established groups of squirrel monkeys was studied. Consistent behavioral differences between dominant and subordinate monkeys were quantitatively measured using computer assisted, continuous measurement techniques. Blood samples collected during the mating season revealed plasma testosterone measures of 202.9±13.4 ng/ml in dominant monkeys and 28±6.2 ng/ml in subordinate monkeys. Alcohol (0.1–1.0 g/kg, PO) produced a dose-related decrease of testosterone levels in dominant monkeys. Concurrently, alcohol produced biphasic effects on the behavior of dominant but not subordinate monkeys; low doses (0.1, 0.3 g/kg) increased the frequency of threats, grasps, and displacements. Subordinate monkeys were not affected at any dose. During the non-mating season, plasma levels of testosterone fell to 55.2±23.7 ng/ml in dominant monkeys and 7.3±1.7 ng/ml in subordinate monkeys. Plasma testosterone and the social behavior of both dominant and subordinate monkeys were unaffected by alcohol.These findings provide further evidence of a specific association between alcohol, testosterone and aggression in the non-human primate. High levels of testosterone that are evident during the mating season of dominant, male squirrel monkeys may activate alcohol sensitive brain substrates of aggressive behavior.     

Effects of phencyclidine on aggressive behavior in mice

The effects of phencyclidine on aggressive behavior in mice and the possible mechanism of action for these effects were examined. PCP at a dose of 10.0 mg/kg significantly decreased the number of attacks by resident mice toward intruders. Significant increases in the number of attacks by non-drugged residents toward the intruders who were given high doses of PCP (6.0 and 10.0 mg/kg) were observed. Only the higher doses of PCP (6.0 and 10.0 mg/kg) significantly increased the duration of locomotion. The increase in locomotion was dependent upon the time after administration of the drug. Hyperactivity was present at 30 minutes for both doses and hypoactivity was present at three hours after administration of 3.0 mg/kg. PCP did not significantly alter the frequency of attacks in an unfamiliar test locale. Pretreatment with haloperidol (1 mg/kg) partially blocked the PCP-induced hyperactivity but pretreatment with methysergide (3 mg/kg) did not. Neither haloperidol nor methysergide blocked the suppressive effects of PCP on aggressive behavior. It is concluded that PCP does not increase aggressive behavior in mice but high doses will decrease aggression. PCP-treated intruder animals provoke more aggression by non-drugged animals. PCP-induced hyperactivity appears to be mediated by dopaminergic systems.     

Estrogen,but not testosterone,attenuates methamphetamine-evoked dopamine output from superfused striatal tissue of female and male mice

The gonadal steroid hormone, estrogen, has the capacity to function as a neuroprotectant against methamphetamine (MA)-induced neurotoxicity of the nigrostriatal dopaminergic system within female, but not male, mice. In an attempt to understand some of the bases for this effect of estrogen, the incipient effects of MA upon evoked dopamine output from superfused striatal tissue fragments of gonadectomized female and gonadectomized as well as intact male mice were evaluated under conditions where estrogen (or testosterone) was present in the medium. The amount of dopamine evoked by MA was significantly reduced when estrogen was co-infused with MA. This attenuation was obtained with striatal tissue fragments of gonadectomized female and gonadectomized and intact male mice. In contrast to estrogen, co-infusion of testosterone failed to produce an overall statistically significant change in MA-evoked dopamine output within superfused striatal tissue fragments of gonadectomized female and male mice. In this way, the gonadal steroid hormones, estrogen and testosterone, exert differential modulatory effects upon MA-evoked dopamine output from superfused striatal tissue fragments. However, similar effects to these gonadal steroid hormones were observed between gonadectomized female and gonadectomized or intact male mice. These data reveal an absence of a sexual dimorphism in striatal responsiveness with regard to estrogen's ability to alter MA-evoked DA output. Accordingly, the sexually dimorphic capacity for estrogen to function as a neuroprotectant may involve a composite of actions upon the nigrostriatal dopaminergic system involving events/sites other than the initial stimulation of dopamine output.     

Flunitrazepam in combination with alcohol engenders high levels of aggression in mice and rats

Rationale

Higher doses of benzodiazepines and alcohol induce sedation and sleep; however, in low to moderate doses these drugs can increase aggressive behavior.

Objectives

To assess firstly the effects of ethanol, secondly the effects of flunitrazepam, a so-called club drug, and thirdly the effects of flunitrazepam plus alcohol on aggression in mice and rats.

Methods

Exhaustive behavioral records of confrontations between a male resident and a male intruder were obtained twice a week, using CF-1 mice and Wistar rats. The salient aggressive and non-aggressive elements in the resident's repertoire were analyzed. Initially, the effects of ethanol (1.0 g/kg), and secondly flunitrazepam (0; 0.01; 0.1; and 0.3 mg/kg) were determined in all mice and rats; subsequently, flunitrazepam or vehicle, given intraperitoneally (0; 0.01; 0.1; and 0.3 mg/kg) was administered plus ethanol 1.0 g/kg or vehicle via gavage.

Results

The most significant finding is the escalation of aggression after a moderate dose of ethanol, and a low dose of flunitrazepam. The largest increase in aggressive behavior occurred after combined flunitrazepam plus ethanol treatment in mice and rats.

Conclusions

Ethanol can heighten aggressive behavior and flunitrazepam further increases this effect in male mice and rats.     

Sex-dependent difference in aryl hydrocarbon hydroxylase activity in mouse liver

Sex difference was observed in the aryl hydrocarbon hydroxylase (AHH) activity of liver in the C3H/He strain of mice. Treatment with estradiol showed an increase in AHH activity in gonadectomized female mice, but not in males. Testosterone, however, lowered AHH activity in both the gonadectomized male and female. Following treatment with either estradiol or testosterone in neonatal stages, AHH activity increased in males, but not in females. A sex difference was observed also in the activity of NADPH-cytochrome c reductase, which was higher in the female, but not in the levels of cytochrome P-450 and benzo[a]pyrene (BP)-induced spectral changes.     

Six-week treatment with Ukrain in rabbits. Part II: Serum levels of gonadal hormones

The effect of 6-week treatment with Ukrain at doses of 0.3, 1.5, and 3.0 mg/kg i.v. on the serum levels of steroid hormones, i.e., estradiol, testosterone, and progesterone, was studied in rabbits of both sexes. It is demonstrated that Ukrain treatment exerts minor changes in serum hormone levels. The level of estradiol was increased in the serum of male rabbits following Ukrain treatment only at the dose of 1.5 mg/kg i.v. Similarly, the estradiol serum level was increased after Ukrain given at 1.5 mg/kg i.v. in female rabbits. In male rabbits Ukrain application at 0.3 mg/kg i.v. increased the serum testosterone level. Serum testosterone levels were not altered following Ukrain administration up to 3.0 mg/kg i.v. in female rabbits. Ukrain raised the serum progesterone levels in male rabbits at the doses of 0.3 and 3.0 mg/kg i.v. in females, only the highest dose of Ukrain produced a significant increase of serum progesterone.     

The effect of nitrites on isolation-induced aggression in mice

Chronic administration of sodium nitrite (1 g/1) in drinking water of pregnant mice and their offspring caused a significant increase in the isolation-induced aggression of the male young. The cessation of administration of sodium nitrite reduced the aggressive behavior of the experimental group to the control level.     

Effects of alcohol on aggressive behavior in squirrel monkeys: influence of testosterone and social context

Social status and reproductive cycle determine the effects of acute, low doses of alcohol on the social behavior of squirrel monkeys. Alcohol produces biphasic effects on the behavior of dominant but not subordinate monkeys, and only during the mating season. The change in alcohol sensitivity measured in dominant monkeys coincides with changes in plasma testosterone levels. In order to directly study the interaction between alcohol, testosterone and aggressive behavior, testosterone propionate (TP, 25 mg/kg/day, SC) was administered to either dominant or subordinate male monkeys belonging to four separate groups, resulting in significantly elevated plasma levels of testosterone (i.e., 905±43 ng/ml in subordinates; 171±19 ng/ml in dominants). Two to three weeks after the beginning of testosterone treatment, the monkeys were administered doses of alcohol (0.1–1.0 g/kg). The behavior of subordinate monkeys was unaffected by TP treatment (even after the dominant monkey from each colony was removed and housed separately for 6 weeks). Testosterone treatment altered the sensitivity of subordinate monkeys to alcohol. Low doses of alcohol increased the frequency of threats, grasps, and displacements exhibited by subordinate monkeys with exogenously elevated testosterone. Daily administration of TP to dominant monkeys during the non-mating season did not affect the behavior of the treated animals in the group, although the body weight of TP-treated monkeys was similar to that measured during the mating season. Low doses of alcohol increased the frequency of threats, grasps, and displacements in dominant monkeys maintained on TP.We also tested the role of social context in maintaining high levels of plasma testosterone, and alcohol sensitivity in dominant monkeys. While living in their social groups, dominants exhibited a similar pattern of alcohol enhancement of aggressive behavior in dyadic confrontations compared to effects measured during the mating season in an undisturbed group. After 2 weeks of individual housing, both plasma testosterone values and sensitivity to alcohol's effects were significantly reduced.These findings strengthen previous correlative studies indicating a relationship between plasma testosterone levels and the effects of alcohol on the aggressive behavior of squirrel monkeys. High levels of testosterone may activate alcohol-sensitive brain substrates of aggressive behavior.     

GABA<Subscript>A</Subscript>/α<Subscript>1</Subscript> receptor agonists and antagonists: effects on species-typical and heightened aggressive behavior after alcohol self-administration in mice

Rationale The positive modulation of gamma-aminobutyric acid type-A (GABA_A) receptors is a putative mechanism via which alcohol escalates aggressive behavior. Broad-spectrum benzodiazepine antagonists block alcohol-heightened aggression in rats and monkeys. However, the degree to which GABA_A subunit composition plays a role in heightened aggressive behavior induced by self-administration of a moderate alcohol dose remains unresolved.Objective -Carboline-3-carboxylate-t-butyl ester (-CCt) and zolpidem act preferentially at GABA_A receptors containing the ₁ subunit as antagonist and agonist, respectively, and serve as useful tools to evaluate the role of GABA_A receptor subtypes in self-administered alcohol on aggression.Methods Male resident mice, housed in breeding pairs, were conditioned to nose-poke in a removable panel in their home cage, with each fifth poke being reinforced by the delivery of 0.05 ml of 6% ethanol (EtOH). After consuming EtOH, the resident mice were given the antagonists -CCt and flumazenil or agonists zolpidem and triazolam, and then confronted an intruder male in their home cage for a 5-min period.Results Following self-administration of EtOH (1.0 g/kg, 1.7 g/kg), 14 of 37 resident mice displayed unusually large increases in the frequency of attack bites and sideways threats. Flumazenil or -CCt decreased alcohol-heightened and non-heightened aggression in a dose-dependent manner. Administration of 3 mg/kg -CCt lowered the aggression-heightening effects of 1 g/kg and 1.7 g/kg EtOH, but did not antagonize the sedative effects of 3.0 g/kg EtOH. Triazolam and zolpidem decreased alcohol-heightened and non-heightened aggressive behavior, and these antiaggressive effects were accompanied by reduced motor activity, indicating sedation.Conclusions Benzodiazepine antagonists, particularly those acting preferentially at GABA_A/₁ subunit-containing receptors, decrease alcohol-heightened and species-typical aggressive behavior, but are ineffective in attenuating the sedative effects of alcohol.     

Repeated cocaine decreases the avoidance response to a novel aversive stimulus in rats

RATIONALE: Stress interacts with cocaine to produce enhanced neurochemical and behavioral responding to cocaine; however, few studies have examined unconditioned behavioral responses to aversive stimuli after repeated cocaine. OBJECTIVES. Studies were conducted to measure the approach/avoidance response to an aversive stimulus after repeated cocaine treatment in male and female rats. METHODS: An unconditioned approach/avoidance task was used in which rats were placed into a box with a novel, aversive stimulus (formaldehyde; Form), and place aversion was assessed. RESULTS: Initial studies established a dose-response curve using different concentrations of Form, and also determined that avoidance of Form was abolished by pretreatment with an anxiolytic dose of chlordiazepoxide. To examine the effects of prior cocaine treatment, intact or gonadectomized male and female rats were pretreated with daily saline or cocaine (15 mg/kg, IPx5 days), and their approach/avoidance response to Form was tested 4-7 days later. In intact males, cocaine decreased the avoidance of Form, and previous gonadectomy completely abolished this response. Decreased avoidance behavior did not appear to be linked to behavioral sensitization to cocaine, since gonadectomized males demonstrated locomotor sensitization when given subsequent cocaine challenge. In females, avoidance of Form was not altered by either cocaine or gonadectomy. Three experiments further characterized the approach/avoidance response to Form in males. In the first experiment, daily footshock stress did not significantly alter the avoidance of Form. In a second study, rats that displayed high and low locomotor responses to a novel cage showed no differences between groups in their avoidance of Form. In the third experiment, intra-nucleus accumbens microinjection of fluphenazine (5 micro g/side) attenuated the daily cocaine-induced decrease in avoidance of Form. CONCLUSIONS: These studies demonstrate that gonadal hormones may mediate cocaine-induced alterations in approach/avoidance to an aversive stimulus in males, and suggest that testosterone may act centrally to modulate dopamine responsiveness in the nucleus accumbens.